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PowerPoint slides of selected figures from the textbook
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Part 1: Electricity
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1 – Electrons Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Hydrogen atom (p. 4)
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2 – Static and current electricity Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Conduction in copper (p. 6)
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2 – Static and current electricity Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Conduction through solutions (p. 9)
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Graph of AC voltage (p. 19) 5 – Alternating currents
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6 – Mains electricity Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Positioning the mains switch (p. 21)
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9 – Sources of energy Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Diagram of fossil fuel power station (p. 26)
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9 – Sources of energy Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Diagram of nuclear power station (p. 27)
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10 – More sources of energy Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Fuel cell (p. 28)
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10 – More sources of energy Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Solar cell (p. 29)
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Part 2: Electronic components
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Resistor colour code bands (p. 36) 12 – Resistors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Linear potentiometer (p. 38) 13 – More about resistors
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14 – Resistor networks Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Voltage divider circuit (p. 41)
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14 – Resistor networks Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Variable voltage divider (p. 44)
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14 – Resistor networks Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Measuring resistance (p. 45)
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15 – Capacitors Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Structure of a capacitor (p. 48)
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15 – Capacitors Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. An isolated charged capacitor (diagram) (p. 48)
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15 – Capacitors Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Examples of non-polarised capacitor (p.49 )
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16 – Charging capacitors Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Charging a capacitor (voltage-time graph) (p. 51)
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Discharging a capacitor (voltage-time graph) (p. 51) 16 – Charging capacitors
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17 – Inductors Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Magnetic field through a coil (p. 53)
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Transformer (p. 55) 17 – Inductors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Flemings Left-hand Rule (p. 56)
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17 – Inductors Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. DC motor (p. 56)
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17 – Inductors Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. AC generator (p. 57)
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19 – Switches Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. SPST and SPDT switches (p. 64)
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19 – Switches Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Operation of a microswitch (p. 65)
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19 – Switches Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Reed switch (p. 65)
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19 – Switches Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Membrane switch (p. 65)
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19 – Switches Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. DPDT switch (p. 66)
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19 – Switches Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Operation of a rotary switch (p. 67)
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Operation of a relay (p. 67) 19 – Switches
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21 – Rectifier diodes Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Diode half-wave rectifier circuit (p. 70)
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21 – Rectifier diodes Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Half-wave rectification, positive half-cycle (p. 70)
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21 – Rectifier diodes Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Half-wave rectification, negative half-cycle (p. 70)
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21 – Rectifier diodes Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Half-wave rectified AC (graph) (p. 70)
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21 – Rectifier diodes Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Diode full-wave rectifier circuit (p. 70)
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21 – Rectifier diodes Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Full-wave rectification, positive half-cycle (p. 71)
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21 – Rectifier diodes Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Full-wave rectification, negative half-cycle (p. 71)
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Full-wave rectified AC (graph) (p. 71) 21 – Rectifier diodes
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Smoothing circuit for full-wave rectified AC (p. 71)
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Smoothed rectified AC (graph, with ripple) (p. 71) 21 – Rectifier diodes
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Circuit for current-limiting resistor (p. 72) 22 – Light emitting diodes
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Bicolour LED (3-terminal) (p. 73) 22 – Light emitting diodes
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Bicolour LED (2-terminal) (p. 73) 22 – Light emitting diodes
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Zener diode as voltage regulator (circuit) (p. 75) 22 – Light emitting diodes
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Pinouts and symbol for npn transistors (p. 80) 25 – Transistors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. The currents through an npn transistor (p. 80) 25 – Transistors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Transistor switch circuit with LDR (p. 81) 25 – Transistors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Collector current against base current (graph) (p. 82) 26 – Transistor action
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Base-emitter voltage against base current (graph) (p. 83) 26 – Transistor action
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Collector-emitter voltage against base current (graph) (p. 93) 26 – Transistor action
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27 – In the Lab: Building on stripboard Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Examples of SMT transistors (p. 91)
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27 – In the Lab: Building on stripboard Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Examples of SMT electrolytic capacitors (p. 91)
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28 - Thyristors Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. DC switching by thyristor (circuit) (p. 93)
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28 - Thyristors Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. AC switching by thyristor (circuit) (p.93)
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28 - Thyristors Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Half-wave rectified AC, by thyristor (graph) (p. 94)
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28 - Thyristors Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Half-wave rectified AC, by thyristor, with delay (graph) (p. 94)
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28 - Thyristors Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Full-wave controlled thyristor rectifier (circuit) (p. 94)
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. FET transistor switch (circuit) (p. 95) 29 – Field effect transistors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Drain current against gate-source voltage (graph) (p. 95) 29 – Field effect transistors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Drain current against gate-source voltage, with smaller load resistor (graph) (p. 96) 29 – Field effect transistors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Switching a relay (circuit diagram) (p. 97) 29 – Field effect transistors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Protective diode (p. 97) 29 – Field effect transistors
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Part 3: Electronic systems
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Supermarket checkout (inputs and outputs) (p. 106) 30 – The structure of a system
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Automatic teller machine (inputs and outputs) (p. 106) 30 – The structure of a system
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Interface circuit for photodiode (p. 114) 31 – Sensors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Strain gauge (p. 114) 31 – Sensors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Wheatstone Bridge circuit (p. 114) 31 – Sensors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Interface circuit for electret microphone (p. 115) 31 – Sensors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Interface circuit for crystal microphone (p. 116) 31 – Sensors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Interface circuit for Hall Effect device (p. 116) 31 – Sensors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Interfacing a resistive sensor, with open collector output (p. 120) 32 – Interfacing sensors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Interfacing a resistive sensor, with collector resistor pull-up (p. 120) 32 – Interfacing sensors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Darlington pair (p. 121) 32 – Interfacing sensors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Inverting Schmitt trigger circuit (p. 121) 32 – Interfacing sensors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Action of a Schmitt trigger (graph) (p. 121) 32 – Interfacing sensors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Complete comparator circuit (p. 123) 32 – Interfacing sensors
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Amplifying a signal (graph) (p. 124) 33 – Amplifying signals
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Amplitude-frequency graph (bandwidth) (p. 125) 33 – Amplifying signals
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Op amp comparator circuit (non-inverting) (p. 126) 33 – Amplifying signals
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Op amp inverting amplifier circuit (p. 126) 33 – Amplifying signals
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Op amp inverting amplifier circuit with power output (p. 127) 33 – Amplifying signals
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. LDR driven inverting amplifier with single supply operation (p. 127) 33 – Amplifying signals
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Capacitor decoupling (p. 128) 33 – Amplifying signals
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Non-inverting op amp amplifier (p. 128) 33 – Amplifying signals
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Clipping (graph) (p. 128) 33 – Amplifying signals
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Op amp mixer circuit (p. 129) 33 – Amplifying signals
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Transistor pre-amplifier circuit (p. 129) 33 – Amplifying signals
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Stabilised transistor pre-amplifier (p. 130) 33 – Amplifying signals
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Op amp inverting amplifier (p. 131) 33 – Amplifying signals
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Op amp delay circuit (p. 132) 34 – Timing
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Triggering the monostable by an LDR (p. 134) 34 – Timing
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Transistor-based astable circuit (p. 135) 34 – Timing
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. 7555 timer IC as an astable with full range of duty cycle (p. 137) 34 – Timing
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. 7555 timer IC as an astable with variable duty cycle (< 50%) (p. 137) 34 – Timing
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. 7555 timer IC as an astable with full range of duty cycle, variable (p. 138) 34 – Timing
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35 – Logic Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. AND operation obtained by switches (p. 142)
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. OR operation obtained by switches (p. 143) 35 – Logic
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Circuit of half-adder (p. 151) 36 – Logical systems
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Circuit of sprinkler control system (p. 151) 36 – Logical systems
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Seven-segment numeric display (p. 151) 36 – Logical systems
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Circuit of logic for displaying 0 to 3 (p. 152) 36 – Logical systems
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Circuit of priority encoder (p. 152)
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36 – Logical systems Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Circuit of data selector (multiplexer) (p. 152)
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. NAND logic for all logical operators (p. 153) 36 – Logical systems
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Set-reset bistable (NAND) (p. 156) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Voltage levels in the reset state (p. 156) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Practical circuit for the above system (p. 157) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. D-type flip-flop (4013) (p. 158) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Action of the 4013 (graph) (p. 158) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. 4013 as 1-stage frequency divider (p. 158) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Action of 1-stage frequency divider (graph) (p. 159) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. 2-stage divider/counter (p. 159) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Action of 2-stage divider/counter (graph) (p. 159) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. 3-stage divider/counter (p. 160) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Action of 3-stage divider/counter (graph) (p. 160) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. 2-stage decade counter based on 4518s (p. 161) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Action of the above counter (graph) (p. 161) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. 4511 BCD to 7-segment latch and driver (p. 162) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Resetting the 4518 counter (p. 163) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Action of the 4017 counter with 1-of-10 outputs (p. 163) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. System diagram of a 2-digit decade counter (00-99) (p. 164) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Chaser light display (p. 164) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Logic circuit for chaser lights display (p. 165) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Logic circuit for traffic lights (p. 165) 37 – Logical sequences
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Set-reset bistable as a 1-bit memory (p. 168) 38 – Storing data
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Eight set-reset bistables as a 1-byte memory (p. 168) 38 – Storing data
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Pinout of 6116 memory IC (p. 169) 38 – Storing data
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Writing to the 6116 (p. 170) 38 – Storing data
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Reading from the 6116 (p. 170) 38 – Storing data
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. One-bit digital input interface circuits (p. 174) 39 – Microcontrollers
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Interfacing a resistive sensor to a microcontroller (p. 174) 39 – Microcontrollers
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Interfacing an LED to a microcontroller output (p. 175) 39 – Microcontrollers
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Parts of a mircocontroller-based security system (circuit) (p. 177) 40 – Programs
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Flowchart for opening automatic doors (p. 179) 40 – Programs
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Flowchart of feedback routine for opening doors (p. 179) 40 – Programs
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Part 4: Electronic systems in action
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. System diagram of stereo system (p. 188) 44 – Audio systems
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Domains on magnetic tape (p. 189) 44 – Audio systems
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Recording on magnetic type (p. 189) 44 – Audio systems
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. The way the domains record the audio signal (p. 189) 44 – Audio systems
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Playback from magnetic tape (p. 189) 44 – Audio systems
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Fundamental frequency and its harmonics (p. 190) 44 – Audio systems
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Signal obtained by combining fundamental and harmonics (p. 191) 44 – Audio systems
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. A dipole antenna emits radio waves (p. 192) 45 – Radio transmission
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Pulses modulated on to carrier (p. 192) 45 – Radio transmission
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. System diagram of AM transmitter (p. 193) 45 – Radio transmission
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Carrier, signal, and modulated carrier (graphs) (p. 193) 45 – Radio transmission
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Frequency modulation (p. 193) 45 – Radio transmission
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. System diagram of radio receiver (p. 194) 46 – Radio reception
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Parts of a dipole receiving antenna (p.194) 46 – Radio reception
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. AM demodulator circuit (p. 195) 46 – Radio reception
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Modulated rf, rectified, audio signal (graphs) (p. 195) 46 – Radio reception
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. System diagram of serial transmission of digital data (p. 196) 47 – Digital communications
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Transmitting a data group serially (graph) (p. 196) 47 – Digital communications
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. System diagram of serial transmission of analogue data (p. 196) 47 – Digital communications
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Sampling an analogue signal (graph) (p. 197) 47 – Digital communications
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Noise on a digital signal (graph) (p. 198) 47 – Digital communications
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Twisted pair and coaxial cables (p. 200)
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47 – Digital communications Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Effect of EMI on a twisted pair (p. 200)
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47 – Digital communications Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Line driving and receiving circuit for twisted pair (p. 200)
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47 – Digital communications Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Line driving and receiving circuit of coaxial cable (p. 200)
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47 – Digital communications Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Internal reflection in optical fibre (p. 201)
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48 – Computers Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. System diagram of a computer (p. 202)
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. System diagram of a microwave oven (p. 206) 49 – Control systems
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. System diagram of control of a fan heater (p. 207)
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49 – Control systems Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. System diagram of drive control of a small robot (p. 208)
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49 – Control systems Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Flowchart for robot avoiding obstacles (p. 209)
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Symbols used for circuits (p. 212) Supplement A
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Symbols used for circuits (continued) (p. 213) Supplement A
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Symbols used for circuits (continued) (p. 214) Supplement A
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Electronics – A First Course 2e. © 2006, Owen Bishop. Published by Elsevier Ltd. Symbols used for flowcharts (p. 215) Supplement B
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